Adaptive Imaging System Workflow & User Interface System

1. A system for configuring a medical imaging system using utilization information, comprising: an imaging controller configured to control operation of an imaging device to perform particular imaging system functions according to a task sequence to acquire imaging data; at least one repository storing records indicating usage and an associated time of usage, of said particular imaging system functions performed on the imaging device; a usage processor coupled to said at least one repository configured to analyze said records to: determine, (a) frequency of usage of said particular imaging system functions, and (b) a sequence of usage of said particular imaging system functions, and provide utilization data, by identifying in said records particular text strings using predetermined information associating predetermined text strings with corresponding imaging system functions; an adaptation processor configured to use the utilization data to create an adapted task sequence which minimizes user interactions and time to perform said particular imaging system functions, wherein creation of the adapted task sequence is performed by at least one of, (i) changing a sequence of tasks a user is prompted with, (ii) adding a task to a respective task sequence of said user, (iii) deleting a task of said respective task sequence of said user and (iv) modifying a task of said respective task sequence of said user; and a display processor configured to: present at least one image corresponding to the adapted task sequence on a user interface device, and in response to receiving user-selection of the adapted task sequence, perform the particular imaging system functions according to the adapted task sequence using the imaging controller.

2. A system according to claim 1 , wherein said data representing said at least one display image prompts said user with an option to employ the adapted task sequence.

3. A system according to claim 1 , wherein said adaptation processor automatically initiates system update to incorporate said adapted task sequence.

4. A system according to claim 1 , wherein said adaptation processor uses the utilization data to adapt user selectable functions provided in a respective display image in response to the utilization data.

5. A system according to claim 4 , wherein said adaptation processor uses the utilization data to adapt the user selectable functions provided in the respective display image by at least one of, (i) changing a sequence of image elements a user is prompted with, (ii) adding a first user interactive image element to a first display image presented to a first user, (iii) deleting a second user interactive image element in a second display image presented to a second user, and (iv) modifying a third user interactive image element in a third display image presented to a third user.

6. A system according to claim 1 , wherein said usage processor compares the determined frequency of usage of said particular imaging system functions with frequency of usage of corresponding particular features of an automated workflow process, identifies a difference indicating an absent feature that is used in practice but absent from the automated workflow process, and said adaptation processor adapts said task sequence to add a task employing the absent feature, in response to the identified difference.

7. A system according to claim 1 , wherein said usage processor compares the determined frequency of usage of said particular imaging system functions with frequency of usage of corresponding particular features of an automated workflow process, identifies a difference indicating a respective imaging system function that is used more frequently in practice than in an automated task sequence, and said adaptation processor adapts said task sequence or a user interface image, in response to the identified difference.

8. A system according to claim 1 , wherein said at least one repository stores error data records indicating errors recorded in using said task sequence, said adaptation processor uses both the utilization data and the error data to adapt said task sequence employing said particular features.

9. A system for configuring a medical imaging system using utilization information, comprising: an imaging controller configured to control operation of an imaging device to perform particular imaging system functions according to a task sequence to acquire imaging data; at least one repository storing records indicating usage and an associated time of usage, of said particular imaging system functions and data identifying an automated task sequence for operating the imaging device; a usage processor coupled to said at least one repository configured to: analyze said records to determine frequency of usage of particular imaging system functions, compare the determined frequency of usage of said particular imaging system functions with frequency of usage of corresponding particular features of said automated task sequence, identify a difference indicating a respective imaging system function that is used in practice but absent from said automated task sequence; and an adaptation processor configured to create an adapted task sequence which minimizes user interactions and time to perform said automated task sequence, in response to the identified difference, by at least one of, (i) changing a sequence of tasks a user is prompted with, (ii) adding a task to a task sequence of a user, (iii) deleting a task of a task sequence of a user, and (iv) modifying a task of a task sequence of a user; and a display processor configured to: present at least one image corresponding to the adapted task sequence on a user interface device, and in response to receiving user-selection of the adapted task sequence, perform the particular imaging system functions according to the adapted task sequence on the imaging device.

10. A system according to claim 9 , wherein said usage processor determines a sequence of usage of said particular imaging system functions and provides utilization data, by identifying in said records particular text strings using predetermined information associating predetermined text strings with corresponding features.

11. A system according to claim 10 , wherein said at least one repository stores error data records indicating errors recorded in using an imaging system task sequence, said adaptation processor uses both the utilization data and the error data to adapt said task sequence employing said particular features.

12. A computer-implemented method for configuring a medical imaging system using utilization information, comprising: using an imaging controller to control operation of an imaging device to perform particular imaging system functions according to a task sequence to acquire imaging data; storing records in at least one repository, indicating usage and an associated time of usage, of said particular imaging system functions performed on the imaging device; analyzing, by a usage processor of a computer, said records to determine, (a) frequency of usage of particular imaging system functions, and (b) a sequence of usage of said particular imaging system functions and provide utilization data, by identifying in said records particular text strings using predetermined information associating predetermined text strings with corresponding imaging system functions; using, by the usage processor, the utilization data to create an adapted task sequence which minimizes user interactions and time to perform said particular imaging system functions wherein creation of the adapted task sequence is performed by at least one of, (i) changing a sequence of tasks a user is prompted with, (ii) adding a task to a task sequence of a user, (iii) deleting a task of a task sequence of a user, and (iv) modifying a task of a task sequence of a user; and presenting at least one image corresponding to the adapted task sequence on a user interface device, and in response to receiving user-selection of the adapted task sequence, performing the particular imaging system functions according to the adapted task sequence on the imaging device.

13. A computer-implemented method according to claim 12 , further comprising: storing in said at least one repository, data identifying an automated task sequence, comparing the determined frequency of usage of said particular imaging system functions with frequency of usage of corresponding particular features of said automated task sequence, identifying a difference indicating a feature that is used in practice but absent from said automated task sequence, and adapting said task sequence in response to the identified difference.

14. A computer-implemented method according to claim 12 , further comprising: storing in said at said least one repository, error data records indicating errors recorded in using an imaging system task sequence, and adapting said task sequence in response to the error data records.